Origin and evolution of circular waves and spirals in Dictyostelium discoideum territories
about
Selection of multiarmed spiral waves in a regular network of neuronsSelf-organized Vortex State in Two-Dimensional Dictyostelium DynamicsEmergent complexity of the cytoskeleton: from single filaments to tissueNoise can play an organizing role for the recurrent dynamics in excitable media.Spiral wave dynamics in neocortexPredicting the distribution of spiral waves from cell properties in a developmental-path model of Dictyostelium pattern formation.Selection for spiral waves in the social amoebae DictyosteliumFold-change detection and scale invariance of cell-cell signaling in social amoeba.Pattern formation, synchronization, and outbreak of biodiversity in cyclically competing games.Termination of spiral waves during cardiac fibrillation via shock-induced phase resetting.Modeling the model organism Dictyostelium discoideum.Spatial trigger waves: positive feedback gets you a long way.Modeling and measuring signal relay in noisy directed migration of cell groups.Bursting calcium rotors in cultured cardiac myocyte monolayers.Desynchronization of cells on the developmental path triggers the formation of spiral waves of cAMP during Dictyostelium aggregationProgress and perspectives in signal transduction, actin dynamics, and movement at the cell and tissue level: lessons from DictyosteliumPredictability of spatio-temporal patterns in a lattice of coupled FitzHugh-Nagumo oscillatorsEvolution of self-organisation in Dictyostelia by adaptation of a non-selective phosphodiesterase and a matrix component for regulated cAMP degradationReconstruction of cellular variability from spatiotemporal patterns of Dictyostelium discoideumRobustness of self-organizing chemoattractant field arising from precise pulse induction of its breakdown enzyme: a single-cell level analysis of PDE expression in Dictyostelium.Modeling oscillations and spiral waves in Dictyostelium populationsBifurcation analysis of solitary and synchronized pulses and formation of reentrant waves in laterally coupled excitable fibers.Developmental waves in myxobacteria: A distinctive pattern formation mechanism.Clathrin Assembly Defines the Onset and Geometry of Cortical Patterning.Achilles' heel of a traveling pulse subject to a local external stimulus.Extracellular Processing of Molecular Gradients by Eukaryotic Cells Can Improve Gradient Detection Accuracy.Elimination of a spiral wave pinned at an obstacle by a train of plane waves: Effect of diffusion between obstacles and surrounding media.Oscillation propagation in neural networks with different topologies.Unpinning of a spiral wave anchored around a circular obstacle by an external wave train: common aspects of a chemical reaction and cardiomyocyte tissue.Survival versus collapse: abrupt drop of excitability kills the traveling pulse, while gradual change results in adaptation.Influence of fast advective flows on pattern formation of Dictyostelium discoideum.Directional sensing and streaming in Dictyostelium aggregation.Spatiotemporal order out of noise
P2860
Q27311210-51BF91DD-6BA8-4E72-AA91-FF3CD6732633Q27450779-E626BB86-45E4-4009-8475-7650E01DDCD4Q28238533-3B0C9E53-2445-4B9C-81C1-738534452678Q30478885-2C58E14B-C727-4FA1-A393-648842D63E5FQ30650694-D708DDAB-EE83-4BB4-89CF-A4A3BA0FA812Q33480931-12BE21C6-0F13-4303-B504-184855BAE25DQ33722156-960ADBFE-A8AC-4F2A-A781-2E857D6AB778Q33737842-67A6212D-F47F-41F7-BA01-538B22F049B4Q33846475-1064604E-CF8D-46EF-A967-1A2B474C1523Q33935128-EE513C14-343E-42A2-9A58-8D0844D3A043Q34121213-A115B3EB-7848-4B3A-83B1-AAC06A58CC0FQ34504177-A293D82F-278B-4380-B675-1B28162B1FAAQ34711760-002D9173-032F-4FA1-9BD2-21F891400EF5Q36291899-DF09D799-6FDF-4E4B-99A1-DB819771E340Q36555513-186EA76E-F762-438C-B024-6C7F12955B42Q38973238-2741182E-D8C5-49AC-A271-AB746104EA69Q39864030-40870509-3B65-4B15-AA25-6AEDBFCB26FFQ41910210-291BCB18-7773-4421-B69D-50C0329D5DB4Q42125288-EBF045DB-1A66-48DA-A26D-8D665D287CDEQ42183156-F919D5F6-EBE2-4CA0-907C-B6C5D1B99077Q42356875-6BB4348D-8220-4182-B962-B609C221CB07Q46180684-8A082BE9-9E2E-4F02-8ED5-A09B38A800A9Q46676477-EFBD13A6-A935-4954-B2D3-08EFDDF65324Q47378408-BB55A747-5319-45E3-94CE-78413D1A5B21Q47765384-D948DCBA-67CE-447E-8D67-07116F239EDEQ49495934-367680FA-999D-4CAA-89E5-C44FEE631CFBQ50782659-117F36F0-48B7-4CDB-A4D5-9EDBDDA8B0CDQ51575770-CD20B01B-C5C3-443C-8BBD-C6B9956AB377Q51758443-AA2F7A14-7D50-4BC3-97F4-C4DB993E857DQ51908772-4C305A48-CE58-4813-ADA7-E2CEF1F59CD2Q52625613-2E0D1BC3-F632-4285-9A61-AD7D3E5F11A1Q53081186-59089588-6302-49A0-A6AC-5A6720B10928Q58046061-83C0C0AD-25A0-4172-952E-03BD10103E49
P2860
Origin and evolution of circular waves and spirals in Dictyostelium discoideum territories
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on February 1996
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Origin and evolution of circul ...... stelium discoideum territories
@en
Origin and evolution of circul ...... telium discoideum territories.
@nl
type
label
Origin and evolution of circul ...... stelium discoideum territories
@en
Origin and evolution of circul ...... telium discoideum territories.
@nl
prefLabel
Origin and evolution of circul ...... stelium discoideum territories
@en
Origin and evolution of circul ...... telium discoideum territories.
@nl
P2860
P356
P1476
Origin and evolution of circul ...... stelium discoideum territories
@en
P2093
P2860
P304
P356
10.1073/PNAS.93.3.1151
P407
P577
1996-02-01T00:00:00Z